Building structure system which accords with human body architecture

ABSTRACT

A building structure system which accords with human body architecture, includes several A buildings, a B building having an in and out access, and a C public which is arranged in all floors of the A buildings, the A buildings and the B building are connected through the C public area, wherein a wind driven generator and a solar panel are installed on a roof of the building structure system for supplying electric power to the building structure system, and a garbage collection entrance, a garbage transmission pipe, a garbage processing system and a garbage recycling system are equipped in the building structure system. The structure and each floor of the buildings are with a scientific layout and have the functions of fire-fighting, anti-seismic and anti-wind.

BACKGROUND OF THE PRESENT INVENTION

1. Field of Invention

The present invention relates to a building structure system which accords with human body architecture.

2. Description of Related Arts

House is a basic place for people to live and work and is also an important symbol of the development and the quality of life of the people. Different houses can give people different feelings of life, and are closely linked with people's health. With the pace of human progresses and the development of the society and economy, people live in a better and better economic condition, so houses are built taller and taller, especially with the speed development of urbanization, more and more people live and work in cities, the land resources of the cities diminish, the high-rise buildings are not only become taller and taller, but also become more and more. For the characteristics of traditional architecture, the elevators and the stairs become the direct channel when fire hazard occurs and the fire spreads. Once a fire hazard occurs in a building, the safety of the whole building is influenced directly, and people evacuating, rescuing and fire extinguishing will become very hard, meanwhile, the higher buildings also bring serious pollution and ordeals and challenges to the urban environment, and the energy sources consume more. Today, the energy lessens day by day, how to design a carbon ecologic architecture with low emissions which is good for developing the ecological environment of the city is a problem which is urgent to be solved.

SUMMARY OF THE PRESENT INVENTION

The present invention provides a building structure system which accords with human body architecture, comprising:

several A buildings;

a B building, wherein the B building has an in and out access;

several C public areas, wherein the C public areas are arranged in all floors of the A buildings, the A buildings are connected with the B building through the C public areas, wherein a wind driven generator and a solar panel are installed on a roof of the building structure system for supplying electric power to the building structure system, and a garbage collection entrance, a garbage transmission pipe, a garbage processing system and a garbage recycling system are equipped in the building structure system.

Preferably, the in and out access comprises a stair system and an elevator system.

Preferably, the wind driven generator comprises a spindle, at least two blades are mounted to the spindle through spokes, an electric coil is electrically connected to the spindle, wherein the blades are in a shape of a trumpet and an opening thereof is along a same circumference direction.

Preferably, a floor height of the C public areas is a synthesis of a height of two neighbor up and down floors of the A buildings, each floor of the C public areas is arranged up and down crossbedded with each floor of the A buildings, wherein the C public areas are connected with the A buildings through connecting ladders, the two neighbor up and down floors of the A buildings share the floor of the C public area between the two neighbor up and down floors.

Compared to the prior art, the present invention has the following advantages:

the present invention breaks the traditional architectural patterns, wherein a business area and/or a residential area, the C public area, and the elevators and/or fire-fighting building area are arranged separately, no vertical channel is arranged in each tenement of the business area and/or the residential area, that is repealing the elevators and fire-fighting stairs between each floors of the business area and/or the residential area, act as an independent area which is separated from the floors of the business area and/or the residential area, and the C public areas which are bigger spaces connect the business area and/or the residential area with the elevators and/or fire-fighting stairs, so that the rate of utilization of the elevators is increased and the energy is saved. Meanwhile, the C public areas provide a platform for residents to communicate and a space for greening, which will promote the communication, the harmony and the life quality of the residents, what's more important is because of no vertical channel is arranged in each tenement of the business area and/or the residential area, when one tenement floor catches fire, the other tenement floors are not influenced, and the C public areas provide an enough space as an activity space for fire rescue, the difficulties of the fire rescue will be decreased, which will reduce the personal injuries and property damage. Wind energy and solar energy are adopted to provide resource energy for the whole building structure system, which is good for the environment. An impulse wind drive generator is adopted to collect wind, which can take advantage of the winds from each floor of the building structure system. The wind energy is used highly and electric power generation is in a high efficiency, which will provide the electric power that the buildings need. Household garbage is disposed by an internal return which will eliminate ill effects on the environment. Seeded strips are arranged in each floor of the A buildings, each floor of the building structure system is spacious and fits for habitation. The structure and each floor of the buildings are with a scientific layout and have the functions of fire-fighting, anti-seismic and anti-wind.

These and other objectives, features, and advantages of the present invention will become apparent from the following detailed description, the accompanying drawings, and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an over-all structure view of according to a building structure system which accords with human body architecture of a preferred embodiment 1 of the present invention.

FIG. 2 is an over-all structure view of according to a building structure system which accords with human body architecture of a preferred embodiment 2 of the present invention.

FIG. 3 is a sketch view of according to a building structure system which accords with human body architecture of a preferred embodiment 3 of the present invention, illustrating the blades of the wind driven generator.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1 of the drawings, a building structure system according to a first preferred embodiment of the present invention is illustrated, comprising:

several A buildings;

a B building, wherein the B building has an in and out access;

C public areas, wherein the C public areas are arranged in all floors of the A buildings, the A buildings and the B building are connected through the C public areas, wherein a wind driven generator and a solar panel are installed on a roof of the building structure system for supplying electric power to the building structure system.

The A buildings are independent mutually and preferably to be a commercial and residential zone, the A buildings center around the B building, the C public areas connect the A buildings and the B building, a plurality first safe fire prevention channels are arranged in all floors of the A buildings which are connected with the B building, preferably, the up and down floors of the A buildings are insulated with each other, so that each floor is independent mutually under this design, no stairs, elevators and other channels are arranged for up an down. When one floor of the A buildings catches fire, the fire and smoke will not spread to other floors through a channel, so that he damage of fire hazard is reduced. Preferably, the floors of the A buildings are connected to the floors of the B building which is equal in height with the floors of the A buildings through the first safe fire prevention channels. A second escape channel 0 is arranged in the B building, associated equipments comprise fire-fighting stairs, elevators and water and electricity general well which are installed centrally, the second escape channel 0 acts as a channel connecting to the A buildings at ordinary time, and in a fire the second escape channel is a channel for escaping from the B building. The layout of centralizing the elevators and other channels in a building can improve the rate of communal facilities' utilization efficiently. Compared to a building with a same height and dimension, the layout can reduce the number of the elevators and start-stop of the elevators which can save electric power. The C public areas act as a cushioning building which can prevent the fire from spreading to the B building efficiently. In the C public areas, public relaxation, entertainment and fitness facilities and seeded stripes can be arranged, which forms a three-dimensional park and makes people feel live on the ground. When the A buildings catch fire, people in the A buildings are evacuated to the C public areas, fire fighters can also put out a fire in the C public area directly, various kinds of fire engines and aerial ladders and other ascending tools are not used. Because of the B building is independent, when the A buildings catch fire, the running of the elevators and other channels in the B building are not influenced which will provide a reliable and safe channel for the fire fighters to enter into the fire and the residents to escape. Although the A buildings, the C public areas and the B building are independent of each other, all reinforced concrete construction members of the building structure system form an integral structure. This kind of structure can improve the capability of anti-seismic and anti-wind of the building structure system, and can also efficiently save structure materials for resist a horizontal force. In the preferred embodiment 1, the A buildings, the C public area and the B building are layout independently, the functions of the A buildings, the C public area and the B building are independent of but depending on one another, which forms an organic function system. In structure, a plurality supporting columns are arranged on a periphery of the A buildings and the C public area, the supporting columns are integrated with the B building through a cross girder, so that all the reinforced concrete construction members of the building structure system form a big integral structure which will improve the intensity and stiffness of the integral structure. And villas, gardens and other facilities can be constructed on a roof of the building structure system to increase the utilization of the land resources and the green area.

The wind driven generator and the solar panel respectively collects the wind energy and the solar energy, the wind energy and the solar energy are transformed into the electric power, a plurality of wind driven generators 3 are placed on the main body of the building structure system and a solar panel is placed on an outside surface of the main body of the building structure system, the plurality of wind driven generators 3 and the solar panel transform the wind energy and the solar energy into electric power and provide electric power to the building structure system directly through a power grid in the main body of the building structure system. The wind driven generator each comprises a spindle, at least two blades are mounted to the spindle through a spoke, an electric coil is connected to the spindle, wherein the blades are in a shape of a trumpet and an opening thereof is along a same circumference direction.

A garbage collection entrance, a garbage transmission pipe, a garbage processing system and a garbage recycling system, which are equipped in the building structure system.

Referring to FIG. 2 of the drawings, according to a second preferred embodiment of the present invention is illustrated, comprising:

a main body of the building structure system, wherein a typical floor of the main body of the building structure system is divided into two regions, the A buildings, the B building and the C public area, wherein the C public areas are a green area for public activities 1, the A buildings are a commercial and residential zone. The green area for public activities 1 is an area which is a similar roundness and a polygon and is located in the center of the main body of the building structure system, the green area for public activities 1 covers a large acreage and the floors of the green area for public activities 1 are high. The green area for public activities 1 is ventilated from a variety of directions which is good for ventilating and lighting transversely. The B building is placed in the center of the green area for public activities 1, an elevator lobby 5 is equipped in the B building, a cross section of the elevator lobby 5 is in a structure of a ring. The elevators are installed along a periphery region of the elevator lobby 5. In order to afforest each floor, ventilate and light, a seeded strip 11 and a lighting and ventilating well 12 are arranged in the green area for public activities 1 in each floor. The lighting and ventilating well 12 runs through the green area for public activities 1 in each floor downwardly and vertically, which can guarantee the effect of lighting and ventilation of each floor. Spiral walking stairs 121 are installed in the lighting and ventilating well 12 to make come upstairs and downstairs conveniently.

In the second preferred embodiment, a house garden 15 is arranged in each commercial and residential zone which leads to the center of the green area for public activities, two sides of the house garden 15 are commercial and residential rooms, and the house garden 15 is in a shape of an outward trumpet, an elevator 16 is installed on an out end of the house garden 15, the seeded strip 11 is afforested on the house garden 15 to increase green area space.

Because of a radiating area of the green area for public activities 1 and each commercial and residential zone is very big, a big space is formed on the roof of the main body of the building structure system. In order to increase the utilization of the big space and the green area and enhance an overall aesthetic, villas and green strips are built on the roof of the main body and even other special constructions, such as a swimming pool and a facility for fitness.

By above structure, although the building system of the second preferred embodiment covers a great area and the stories are high, the effect of ventilating and lighting are good. And each floor has a big area green strip, so that people can enjoy green plants and a plenty of fresh air even on a floor that above the ground one hundred meters.

In order to make the whole building structure system has much lower carbon function, the whole building structure system adopts a system of collecting and utilizing green energy resource, and a rain, waste water and garbage recycling, disposing and resource generating system which are respectively used to recycle and dispose the garbage and generate resource.

The system of collecting and utilizing green energy resource mainly collects the wind energy and solar energy and transforms the wind energy and solar energy into the electric power to provide the building structure system. The system of collecting and utilizing green energy resource comprises a plurality of wind driven generators which are placed on the main body of the building structure system and a photovoltaic solar panel which is placed on an outside surface of the main body, the plurality of wind driven generators and the solar panel transform the wind energy and the solar energy into electric power and provide electric power to the building structure system directly through a power grid in the main body of the building structure system.

The wind driven generator is installed on a top position between the peripheral region of the green area for public activities and the adjacent commercial and residential zone, comprising at least two blades in a shape of a trumpet, a direction of an opening of the blades is horizontally set. The blades are installed to a spindle which is set vertically through spokes. An inlet wind pipe which corresponds with the opening of the blades is arranged on a side of the wind driven generator. The inlet wind pipe and outlet wind pipe of two wind driven generators with opposite directions are connected crossedly.

When the wind blows the main body of the building structure system from a right side, the wind driven generator on the right side are driven to rotate by the wind. The wind blowing the blades enters the inlet wind pipe of the wind driven generator on the left side and blows the wind driven generator on the left side through the outlet wind pipe of the right wind driven generator, so that the wind driven generator on the left side is driven to rotate. When the wind direction is opposite, two wind driven generators with opposite directions can also be driven to rotate. A wind leading glass is arranged on an out position between the peripheral region of the green area for public activities and the adjacent commercial and residential zone, an angle of inclination of the wind leading glass can be adjusted according to the wind speed, so that the wind speed of the green area for public activities can be controlled, and the incline form of installing the wind leading glass forms a trumpet mouth which makes the wind blowing the wind driven generator bigger.

The rain, waste water and garbage recycling, disposing and resource generating system comprises a garbage recycling pipe which is arranged in each floor and a disposing unit for disposing and recycling the garbage intensively. The garbage recycling pipe is connected with the disposing unit. In order to collect solid garbage on each floor easily, a solid garbage recycling pipe is arranged in a specific position of each floor, the solid garbage recycling pipe is connected with a solid garbage disposing unit which is arranged on a bottom of the main body of the building structure system. The layout of the solid garbage recycling pipes can be consistent with the layout of existing pipes, and also can be determined by the actual situation. No details are needed to be provided here. In the second preferred embodiment, the solid garbage recycling pipes are arranged on a connection of each commercial and residential zone and the green area for public activities, and the solid garbage disposing unit can adopts existing solid garbage disposing unit. No details are provided here as well.

Referring to FIG. 2 of the drawings, a third preferred embodiment of the present invention further represents the wind driven generator of the second preferred embodiment of the present invention.

The wind driven generator is an impulse wind driven generator which comprises a spindle 31 and a plurality of blades 32 installing to the spindle 21, wherein the spindle 31 is connected to a generating electricity coil dynamicly. Compared to an existing wind driven generator, the third preferred embodiment of the present invention has a different structure of blades, in the third preferred embodiment, six blades 32 are arranged on a periphery of the spindle 31, the six blades 32 are in a shape of a trumpet. A direction of each blade mouth is along a same circumference, all the six blades 32 are connected with the spindle 31 fixedly. The blade 32 has a great contact area on a windage side and a small contact area on other side, so that the wind can blow the blade 32 to rotate along the spindle 31. The blade 32 in a shape of a trumpet can guarantee both a maximum contact area on a windage side and a minimum wind drag during the blade 32 rotating along the spindle 31, the rotation is more smooth. In order to reduce the wind drag during rotation, a hull of the blade 32 is designed as an arc which is in line with a movement path of the blade 32.

One skilled in the art will understand that the embodiment of the present invention as shown in the drawings and described above is exemplary only and not intended to be limiting.

It will thus be seen that the objects of the present invention have been fully and effectively accomplished. Its embodiments have been shown and described for the purposes of illustrating the functional and structural principles of the present invention and is subject to change without departure from such principles. Therefore, this invention includes all modifications encompassed within the spirit and scope of the following claims. 

1. A building structure system which accords with human body architecture, comprising: several A buildings; a B building, wherein said B building has an in and out access; several C public areas, wherein said C public areas are arranged in all floors of said A buildings, said A buildings and said B building are connected through said C public areas, wherein a wind driven generator and a solar panel are installed on a roof of said building structure system for supplying electric power to said building structure system, and a garbage collection entrance, a garbage transmission pipe, a garbage processing system and a garbage recycling system are equipped in said building structure system.
 2. The building structure system, as recited in claim 1, wherein said in and out access further comprises a stairs and elevators system.
 3. The building structure system, as recited in claim 1, wherein said wind driven generator further comprises a spindle, at least two blades are mounted to said spindle through spokes, an electric coil is electrically connected to said spindle, wherein said blades are in a shape of a trumpet and an opening thereof is along a same circumference direction.
 4. The building structure system, as recited in claim 2, wherein said wind driven generator further comprises a spindle, at least two blades are mounted to said spindle through spokes, an electric coil is electrically connected to said spindle, wherein said blades are in a shape of a trumpet and an opening thereof is along a same circumference direction.
 5. The building structure system, as recited in claim 1, wherein a floor height of said C public areas is a synthesis of a height of two neighbor up and down floors of said A buildings, each floor of said C public areas is arranged up and down crossbedded with each floor of said A buildings, wherein said C public areas are connected with said A buildings through connecting ladders, said two neighbor up and down floors of said A buildings share said floor of said C public areas between said two neighbor up and down floors.
 6. The building structure system, as recited in claim 2, wherein a floor height of said C public areas is a synthesis of a height of two neighbor up and down floors of said A buildings, each floor of said C public areas is arranged up and down crossbedded with each floor of said A buildings, wherein said C public areas are connected with said A buildings through connecting ladders, said two neighbor up and down floors of said A buildings share said floor of said C public areas between said two neighbor up and down floors.
 7. The building structure system, as recited in claim 3, wherein a floor height of said C public areas is a synthesis of a height of two neighbor up and down floors of said A buildings, each floor of said C public areas is arranged up and down crossbedded with each floor of said A buildings, wherein said C public areas are connected with said A buildings through connecting ladders, said two neighbor up and down floors of said A buildings share said floor of said C public areas between said two neighbor up and down floors.
 8. The building structure system, as recited in claim 4, wherein a floor height of said C public areas is a synthesis of a height of two neighbor up and down floors of said A buildings, each floor of said C public areas is arranged up and down crossbedded with each floor of said A buildings, wherein said C public areas are connected with said A buildings through connecting ladders, said two neighbor up and down floors of said A buildings share said floor of said C public areas between said two neighbor up and down floors.
 9. The building structure system, as recited in claim 1, wherein said up and down floors of said A buildings are insulated with each other, so that each floor is independent mutually under this design, no stairs, elevators and other channels are arranged for up an down.
 10. The building structure system, as recited in claim 2, wherein said up and down floors of said A buildings are insulated with each other, so that each floor is independent mutually under this design, no stairs, elevators and other channels are arranged for up an down.
 11. The building structure system, as recited in claim 5, wherein said up and down floors of said A buildings are insulated with each other, so that each floor is independent mutually under this design, no stairs, elevators and other channels are arranged for up an down.
 12. The building structure system, as recited in claim 8, wherein said up and down floors of said A buildings are insulated with each other, so that each floor is independent mutually under this design, no stairs, elevators and other channels are arranged for up an down.
 13. The building structure system, as recited in claim 1, wherein a second escape channel is arranged in said B building, associated equipments comprise fire-fighting stairs, elevators and water and electricity general well which are installed centrally.
 14. The building structure system, as recited in claim 2, wherein a second escape channel is arranged in said B building, associated equipments comprise fire-fighting stairs, elevators and water and electricity general well which are installed centrally.
 15. The building structure system, as recited in claim 5, wherein a second escape channel is arranged in said B building, associated equipments comprise fire-fighting stairs, elevators and water and electricity general well which are installed centrally.
 16. The building structure system, as recited in claim 8, wherein a second escape channel is arranged in said B building, associated equipments comprise fire-fighting stairs, elevators and water and electricity general well which are installed centrally.
 17. The building structure system, as recited in claim 1, wherein said wind driven generator is installed on a top position between a peripheral region of a green area for public activities and a adjacent commercial and residential zone, comprising at least two blades in a shape of a trumpet, a direction of an opening of said blades is horizontally set, wherein said blades are installed to a spindle which is set vertically through spokes, an inlet wind pipe which corresponds with said opening of said blades is arranged on a side of said wind driven generator, said inlet wind pipe and outlet wind pipe of two wind driven generators with opposite directions are connected crossedly.
 18. The building structure system, as recited in claim 2, wherein said wind driven generator is installed on a top position between a peripheral region of a green area for public activities and a adjacent commercial and residential zone, comprising at least two blades in a shape of a trumpet, a direction of an opening of said blades is horizontally set, wherein said blades are installed to a spindle which is set vertically through spokes, an inlet wind pipe which corresponds with said opening of said blades is arranged on a side of said wind driven generator, said inlet wind pipe and outlet wind pipe of two wind driven generators with opposite directions are connected crossedly.
 19. The building structure system, as recited in claim 3, wherein said wind driven generator is installed on a top position between a peripheral region of a green area for public activities and a adjacent commercial and residential zone, comprising at least two blades in a shape of a trumpet, a direction of an opening of said blades is horizontally set, wherein said blades are installed to a spindle which is set vertically through spokes, an inlet wind pipe which corresponds with said opening of said blades is arranged on a side of said wind driven generator, said inlet wind pipe and outlet wind pipe of two wind driven generators with opposite directions are connected crossedly.
 20. The building structure system, as recited in claim 4, wherein said wind driven generator is installed on a top position between a peripheral region of a green area for public activities and a adjacent commercial and residential zone, comprising at least two blades in a shape of a trumpet, a direction of an opening of said blades is horizontally set, wherein said blades are installed to a spindle which is set vertically through spokes, an inlet wind pipe which corresponds with said opening of said blades is arranged on a side of said wind driven generator, said inlet wind pipe and outlet wind pipe of two wind driven generators with opposite directions are connected crossedly. 